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author | 2020-11-15 03:53:47 +1100 | |
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committer | 2020-11-15 03:53:47 +1100 | |
commit | 55b8ca317ab1f77850f498c1523355e1f5dd8d03 (patch) | |
tree | bada7948236b18684609f47024cc9ca227a5ef89 /3rdparty/sol2/sol/resolve.hpp | |
parent | 4db7f0439c3b841eb07d2320e39be38269e6cd56 (diff) |
-Switch to building MAME as C++17.
* Updated sol2 to 3.2.2
* Updated pugixml to 1.10
* Increased minimum clang version to 6
* Cleaned up some stuff that can use new features
Diffstat (limited to '3rdparty/sol2/sol/resolve.hpp')
-rw-r--r-- | 3rdparty/sol2/sol/resolve.hpp | 173 |
1 files changed, 0 insertions, 173 deletions
diff --git a/3rdparty/sol2/sol/resolve.hpp b/3rdparty/sol2/sol/resolve.hpp deleted file mode 100644 index acd372dd772..00000000000 --- a/3rdparty/sol2/sol/resolve.hpp +++ /dev/null @@ -1,173 +0,0 @@ -// The MIT License (MIT) - -// Copyright (c) 2013-2016 Rapptz, ThePhD and contributors - -// Permission is hereby granted, free of charge, to any person obtaining a copy of -// this software and associated documentation files (the "Software"), to deal in -// the Software without restriction, including without limitation the rights to -// use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of -// the Software, and to permit persons to whom the Software is furnished to do so, -// subject to the following conditions: - -// The above copyright notice and this permission notice shall be included in all -// copies or substantial portions of the Software. - -// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR -// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS -// FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR -// COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER -// IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN -// CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. - -#ifndef SOL_RESOLVE_HPP -#define SOL_RESOLVE_HPP - -#include "traits.hpp" -#include "tuple.hpp" - -namespace sol { - -#ifndef __clang__ - // constexpr is fine for not-clang - - namespace detail { - template<typename R, typename... Args, typename F, typename = std::result_of_t<meta::unqualified_t<F>(Args...)>> - inline constexpr auto resolve_i(types<R(Args...)>, F&&)->R(meta::unqualified_t<F>::*)(Args...) { - using Sig = R(Args...); - typedef meta::unqualified_t<F> Fu; - return static_cast<Sig Fu::*>(&Fu::operator()); - } - - template<typename F, typename U = meta::unqualified_t<F>> - inline constexpr auto resolve_f(std::true_type, F&& f) - -> decltype(resolve_i(types<meta::function_signature_t<decltype(&U::operator())>>(), std::forward<F>(f))) { - return resolve_i(types<meta::function_signature_t<decltype(&U::operator())>>(), std::forward<F>(f)); - } - - template<typename F> - inline constexpr void resolve_f(std::false_type, F&&) { - static_assert(meta::has_deducible_signature<F>::value, - "Cannot use no-template-parameter call with an overloaded functor: specify the signature"); - } - - template<typename F, typename U = meta::unqualified_t<F>> - inline constexpr auto resolve_i(types<>, F&& f) -> decltype(resolve_f(meta::has_deducible_signature<U>(), std::forward<F>(f))) { - return resolve_f(meta::has_deducible_signature<U> {}, std::forward<F>(f)); - } - - template<typename... Args, typename F, typename R = std::result_of_t<F&(Args...)>> - inline constexpr auto resolve_i(types<Args...>, F&& f) -> decltype(resolve_i(types<R(Args...)>(), std::forward<F>(f))) { - return resolve_i(types<R(Args...)>(), std::forward<F>(f)); - } - - template<typename Sig, typename C> - inline constexpr Sig C::* resolve_v(std::false_type, Sig C::* mem_func_ptr) { - return mem_func_ptr; - } - - template<typename Sig, typename C> - inline constexpr Sig C::* resolve_v(std::true_type, Sig C::* mem_variable_ptr) { - return mem_variable_ptr; - } - } // detail - - template<typename... Args, typename R> - inline constexpr auto resolve(R fun_ptr(Args...))->R(*)(Args...) { - return fun_ptr; - } - - template<typename Sig> - inline constexpr Sig* resolve(Sig* fun_ptr) { - return fun_ptr; - } - - template<typename... Args, typename R, typename C> - inline constexpr auto resolve(R(C::*mem_ptr)(Args...))->R(C::*)(Args...) { - return mem_ptr; - } - - template<typename Sig, typename C> - inline constexpr Sig C::* resolve(Sig C::* mem_ptr) { - return detail::resolve_v(std::is_member_object_pointer<Sig C::*>(), mem_ptr); - } - - template<typename... Sig, typename F, meta::disable<std::is_function<meta::unqualified_t<F>>> = meta::enabler> - inline constexpr auto resolve(F&& f) -> decltype(detail::resolve_i(types<Sig...>(), std::forward<F>(f))) { - return detail::resolve_i(types<Sig...>(), std::forward<F>(f)); - } -#else - - // Clang has distinct problems with constexpr arguments, - // so don't use the constexpr versions inside of clang. - - namespace detail { - template<typename R, typename... Args, typename F, typename = std::result_of_t<meta::unqualified_t<F>(Args...)>> - inline auto resolve_i(types<R(Args...)>, F&&)->R(meta::unqualified_t<F>::*)(Args...) { - using Sig = R(Args...); - typedef meta::unqualified_t<F> Fu; - return static_cast<Sig Fu::*>(&Fu::operator()); - } - - template<typename F, typename U = meta::unqualified_t<F>> - inline auto resolve_f(std::true_type, F&& f) - -> decltype(resolve_i(types<meta::function_signature_t<decltype(&U::operator())>>(), std::forward<F>(f))) { - return resolve_i(types<meta::function_signature_t<decltype(&U::operator())>>(), std::forward<F>(f)); - } - - template<typename F> - inline void resolve_f(std::false_type, F&&) { - static_assert(meta::has_deducible_signature<F>::value, - "Cannot use no-template-parameter call with an overloaded functor: specify the signature"); - } - - template<typename F, typename U = meta::unqualified_t<F>> - inline auto resolve_i(types<>, F&& f) -> decltype(resolve_f(meta::has_deducible_signature<U>(), std::forward<F>(f))) { - return resolve_f(meta::has_deducible_signature<U> {}, std::forward<F>(f)); - } - - template<typename... Args, typename F, typename R = std::result_of_t<F&(Args...)>> - inline auto resolve_i(types<Args...>, F&& f) -> decltype(resolve_i(types<R(Args...)>(), std::forward<F>(f))) { - return resolve_i(types<R(Args...)>(), std::forward<F>(f)); - } - - template<typename Sig, typename C> - inline Sig C::* resolve_v(std::false_type, Sig C::* mem_func_ptr) { - return mem_func_ptr; - } - - template<typename Sig, typename C> - inline Sig C::* resolve_v(std::true_type, Sig C::* mem_variable_ptr) { - return mem_variable_ptr; - } - } // detail - - template<typename... Args, typename R> - inline auto resolve(R fun_ptr(Args...))->R(*)(Args...) { - return fun_ptr; - } - - template<typename Sig> - inline Sig* resolve(Sig* fun_ptr) { - return fun_ptr; - } - - template<typename... Args, typename R, typename C> - inline auto resolve(R(C::*mem_ptr)(Args...))->R(C::*)(Args...) { - return mem_ptr; - } - - template<typename Sig, typename C> - inline Sig C::* resolve(Sig C::* mem_ptr) { - return detail::resolve_v(std::is_member_object_pointer<Sig C::*>(), mem_ptr); - } - - template<typename... Sig, typename F> - inline auto resolve(F&& f) -> decltype(detail::resolve_i(types<Sig...>(), std::forward<F>(f))) { - return detail::resolve_i(types<Sig...>(), std::forward<F>(f)); - } - -#endif - -} // sol - -#endif // SOL_RESOLVE_HPP |